How does non-contact inductive position sensing work? Inductive position sensing is a three step process…
Continue readingInductive position sensing principle of operation.
5 reasons to choose induction over hall effect sensors.
Non-contact position sensors using induction technology provide a number of benefits over Hall-Effect sensors – here are the top 5…
Continue readingGill’s 360 rotary sensors improve 3D print quality
Rotary sensors improve 3D print quality by accurately measuring winding tension allowing reliable and predictable material to be supplied to the print nozzle
Continue readingSmartsound AutoNaut, scientific research vessel, equipped with sophisticated array of sensors
Explore the AutoNaut: UK’s Wave-Powered Research Vessel at Smart Sound Plymouth. Discover its advanced sensors and groundbreaking scientific capabilities. Developed by Plymouth Marine Lab and supported by prominent institutions.
Continue readingGill R3 chosen for real-time motion correction
Scientists at Plymouth Marine Laboratory (PML) – a world leader in the field of marine research – are at the next stage of their ground-breaking efforts to understand and unravel the complexities of measuring wind on a moving platform, using Gill Instruments R3 3-axis anemometers.
Continue readingGill Sensors Develops Custom Non-Contact Sensor for Formula One Drag Reduction System (DRS)
Gill Sensors developed a non-contact DRS position sensor for F1 teams, improving monitoring of the rear wing’s position in real time.
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